View clinical trials related to Neoplastic Syndromes, Hereditary.
Filter by:This trial examines approaches to identify and care for individuals with inherited cancer syndrome. The purpose of this study is to offer no cost genetic testing to the general public. Researchers hope to learn the value of providing broad, public-wide testing for high risk cancer types (like hereditary breast and ovarian cancer or Lynch syndromes) instead of only testing people whose families are known to be high risk.
The goal of this study is to develop an effective, sensitive blood test that can detect early tumours in patients with known or suspected hereditary cancer syndromes (HCS). If this new blood test is accurate, it could be used to screen patients for cancer and allow for earlier cancer detection. The study will also use questionnaires and interviews to understand how patients feel about incorporating these tests into routine medical care, and the perceptions of the medical value of test results.
In order to best meet the needs of all those affected by the genetic risk of cancer in our region, it is important to identify the factors likely to influence the course leading to the GENEPY surveillance network. The aim of this study is to evaluatie the adhesion to the network of care of people at genetic risk of cancer in Midi-Pyrénées (GENEPY).
The study aims to update current knowledge about the epidemiology of pituitary tumours (PiT), based on the wide body of scientific literature on new familial and/or syndromic forms. Although inherited predisposition is increasingly recognized, its clinical relevance in unselected series of PiT patients has not been specifically addressed. In addition, it is likely that further recognition of peculiar associations between PiT and other endocrine and/or non-endocrine neoplasia will further increase the spectrum of syndromic forms. Since the identification of inherited forms of PiT may have significant clinical implications in terms of patients management and familial screening, we aim to collect any relevant information in order to estimate their prevalence in a large unselected series of PiT patients and provide new clues for a modern clinical approach to these patients.
This study will investigate the utility of integrative sequencing of individuals and families at risk of hereditary cancer syndromes and will uncover novel contributors to tumourigenesis. Integrative sequencing refers to: 1. Whole genome sequencing (WGS) of the germline (inherited) genome 2. Whole exome sequencing (WES) or targeted/panel sequencing of tumour(s) (somatic, tumour-specific mutations) 3. DNA methylation (methylome) analysis of tumour(s) 4. RNA sequencing (transcriptome) of tumour(s) Eligible patients receiving genetic care at Princess Margaret Cancer Centre and the University Health Network may be approached by their genetic counsellor for participation in this study.
Frequency of constitutional mismatch-repair deficiency among suspected neurofibromatosis type 1 patients without a NF1 mutation Constitutional mismatch repair deficiency (CMMRD) is a rare inherited condition. Individuals with CMMRD have an extraordinarily high risk to develop a malignant tumor in childhood or adolescence. Nearly all known CMMRD patients developed a malignancy within the first three decades of life and most often in (early) childhood. Since early cancer detection improves the chances to survive, these patients should be included from early childhood on in intensive cancer surveillance protocols. Typically patients are diagnosed with CMMRD only when they develop their first malignant tumor. Many children with CMMRD show already before the onset of the first malignant tumor clinical signs that may serve as a signpost of this severe condition. Often CMMRD patient show skin patches of milk coffee-like color, termed café au lait maculae (CALM), which are very typical for a different inherited condition named neurofibromatosis type 1 (NF1). NF1, which is much more frequent than CMMRD, also leads to tumor development. But NF1 tumors are usually benign and NF1 children need different, less rigorous, tumor surveillance programs than CMMRD patients. A child with >5 CALM is suspected of having NF1. However, if this diagnosis cannot be confirmed by identification of the causative genetic alteration (NF1-mutation), CMMRD is one possible, but presumably rare, alternative (= differential) diagnosis. Therefore, human geneticists and pediatricians discuss internationally, whether these children should be tested for CMMRD. Diagnosing CMMRD in this situation would allow offering appropriate cancer surveillance protocols to these patients before they develop their first malignant tumor. However, CMMRD testing in this situation may also cause difficulties. Genetic testing may for instance render an ambiguous result, which can neither confirm nor rule out CMMRD. Such a result would create great uncertainty of the appropriate management of the patient. It would be not clear whether intensive cancer surveillance, that may be very stressful for the patient and the family, should be applied or not. Such potential disadvantages of (with respect to tumor development) predictive CMMRD testing argue more against testing when the chances to identify CMMRD in a patient and consequently achieving a benefit for the patient are low. But currently the frequency of CMMRD patients among suspected NF1 patients without a causative NF1 mutation is unknown. It is the aim of this project to get a reliable estimation on the frequency of the differential diagnosis CMMRD in children with NF1 signs in whom the diagnosis NF1 cannot be confirmed. This information is needed to evaluate and weight the benefits and potential disadvantage of CMMRD testing in these children. To know this frequency is also important for appropriate genetic counseling of at risk children and their parents.
The CHARM (Cancer Health Assessment Reaching Many) study will assess the utility of clinical exome sequencing and how it affects care in diverse populations. The study population includes adults at risk for hereditary cancer syndromes. The primary objective is to implement a hereditary cancer risk assessment program in healthy 18-49 year-olds in primary care settings within a vertically integrated health delivery system (Kaiser Permanente) and a federal qualified health center (Denver Health). The investigators will assess clinical exome sequencing implementation and interpretation, as well as tailored interactions for low health literacy including a contextualized consent process, and a modified approach to results disclosure and genetic counseling. The investigators will also assess the clinical utility (healthcare utilization and adherence to recommended care) and personal utility of primary and additional results from clinical exome sequencing, and evaluate the ethical and policy implications of considering personal utility of genomic information decisions for health care coverage.
Infant hemangioma(IH) is the most common benign vascular tumor of infancy with the estimated incidence varies 1% to 12%.However, in China, the incidence of infant hemangioma and related epidemiological data remains unclear. So, the investigators designed the study for the following purposes: 1, to aware the incidence of infantile hemangioma and understand the related risk factorsin China; 2, to understand the clinical characteristics of infantile hemangioma and the risk factors for complications; 3, to investigate the level of knowledge, treatment options in infant hemangioma in Chinese doctors; 3, to improve the awareness of infantile hemangioma in parents and provide more advice for pregnancy counseling and eugenics.
Pheochromocytomas and paragangliomas are neural crest-derived tumors of the nervous system that are often inherited and genetically heterogeneous. Genetic screening is recommended for patients and their relatives, and can guide clinical decisions. However, a mutation is not found in all cases. The aims of this proposal are to: 1) to map gene(s) involved in pheochromocytoma, and 2) identify genotype-phenotype correlations in patients with pheochromocytoma/paraganglioma of various genetic origins.
A prospective, non-interventional study to evaluate the impact of a process engineering intervention on screening and testing outcomes for common hereditary cancer syndromes in community-based OB/GYN settings.